Production of carbon nanotube reinforced Fe-based amorphous alloy thermal spray coating and method

A composite technology of iron-based amorphous alloys and carbon nanotubes, which is applied in metal material coating process, coating, melt spraying and other directions, and can solve the non-uniform deformation of iron-based amorphous alloys and the limited application of iron-based amorphous alloys. and other problems to achieve the effect of improving toughness

Inactive Publication Date: 2012-08-29
TIANJIN UNIV
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Problems solved by technology

However, like other amorphous alloys, in traditional macroscopic mechanical property tests, iron-based amorphous alloys tend to undergo non-uniform deformation, and the plastic deform...

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  • Production of carbon nanotube reinforced Fe-based amorphous alloy thermal spray coating and method
  • Production of carbon nanotube reinforced Fe-based amorphous alloy thermal spray coating and method
  • Production of carbon nanotube reinforced Fe-based amorphous alloy thermal spray coating and method

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Embodiment Construction

[0035] The preparation method of the high-strength and high-toughness iron-based amorphous coating provided by the present invention mainly consists of three steps:

[0036] The preparation process of high-strength and high-toughness iron-based amorphous alloy coating is as follows: figure 1 Shown: First, the iron-based amorphous alloy powder is mixed with multi-walled carbon nanotubes; then, the iron-based amorphous alloy powder and carbon nanotubes are restructured by mechanical ball milling or spray granulation to form a composite Particles; before spraying, the surface of the sprayed base material is roughened by sandblasting; the base material after surface pretreatment is fixed on the workbench; the iron-based amorphous-carbon nanotube composite reconstituted particles are sprayed on the material by thermal spraying technology On the surface, an iron-based amorphous alloy coating is obtained.

[0037] Embodiments of the present invention adopt the following technical co...

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Abstract

The invention provides the production of a carbon nanotube reinforced high tenacity Fe-based amorphous alloy thermal spray coating and a method. A mechanical ball-milling method or a spray granulation method is utilized to reconstruct Fe-based amorphous powder and a carbon nanotube to form Fe-based amorphous-carbon nanotube composite powder; a spraying material surface is pretreated; and the thermal spraying process is carried out, a plasma spraying technology is adopted to spray the Fe-based amorphous-carbon nanotube composite powder, so the high strength and tenacity Fe-based amorphous coating is produced. The Fe-based amorphous alloy powder comprises components of C, B, Ni, Si, Mo, Cr, W and Fe; and the granularity is 1-100mum. The carbon nanotube is a multi-wall carbon nanotube which has the purity larger than 95%, the external diameter of 8-70nm and the length of 100nm-20mum. The carbon nanotube and the Fe-based amorphous are well combined in the coating, so the reinforcing effect is obvious; and the coating fracture surface presents an appearance of total brittle fracture and local ductile fracture, both the tenacity and strength of the Fe-based amorphous are improved, so a practicable and feasible method for applying the Fe-based amorphous coating in a project is provided.

Description

technical field [0001] The invention provides a carbon nanotube-reinforced high-toughness iron-based amorphous alloy thermal spray coating and a method thereof, which are suitable for various materials whose surfaces require high strength and high toughness. Background technique [0002] In 1991, Sumio Iijima of Japan observed for the first time hollow carbon fibers with an electron microscope. The diameter is generally between a few nanometers and tens of nanometers, and the length is several micrometers or even millimeters. They are called "carbon nanotubes". Carbon nanotubes have extremely high strength and excellent toughness. Its strength is about 100 times that of steel, but its density is only 1 / 6 that of steel. Theoretical and experimental research results show that the Young's modulus of single-walled carbon nanotubes can reach 1TPa, which is comparable to that of diamond. [0003] Due to the excellent mechanical properties of carbon nanotubes, as an ideal fiber r...

Claims

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Application Information

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IPC IPC(8): C23C4/06
Inventor 陈源陆冠雄马宁韩玉君叶福兴
Owner TIANJIN UNIV
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